Title
Future European shale gas life-cycle GHG emissions for electric power generation in comparison to other fossil fuels
Author
Hauck, M.
Sair, A.A.
Steinmann, Z.
Visschedijk, A.
O'Connor, D.
Denier van der Gon, H.
Publication year
2019
Abstract
The carbon footprint of shale gas combusted in Europe was estimated from nine European shale gas plays as potential production regions. Greenhouse gas emission sources during shale gas production, such as fugitives from hydraulic fracturing or combustion emissions from horizontal drilling, were added to emissions occurring for conventional gas extraction. Greenhouse gas emissions are expressed as g CO 2 -equivalents per MJ delivered, and calculated for a kWh of electricity generated. Estimated total GHG emissions from the use of European shale gas for electricity production range from 0.42 to 0.75 g CO 2 -eq/kWh when the combustion in the power plant is included. This is within the range reported in the literature. The cumulative carbon footprints for a number of fossil electricity generation scenarios for Europe were also calculated. The results indicate an advantage of gas over other fossil sources in a wide range of scenarios. These results are only reversed with very high (10%) upstream losses for shale gas. With the current knowledge there is still a substantial climate benefit of replacing coal with (shale) gas even in the EU reference scenario. A© 2019, A© 2019 Informa UK Limited, trading as Taylor & Francis Group.
Subject
EU reference scenario
Carbon dioxide
Carbon footprint
Coal combustion
Electric power generation
Emission control
Fossil fuels
Greenhouse gases
Horizontal drilling
Life cycle
Shale gas
Combustion emissions
Electricity generation
Electricity production
Fossil sources
Gas extractions
Gas productions
Life-cycle GHG emissions
Potential production
Gas emissions
To reference this document use:
http://resolver.tudelft.nl/uuid:3dae23c9-5b7c-48c1-9257-45f218b95f3d
DOI
https://doi.org/10.1080/17583004.2019.1571529/
TNO identifier
865631
ISSN
1758-3004
Source
Carbon Management, 10 (10), 163-174
Document type
article